WO2009118076A1

WO2009118076A1 - Device for blowing off bottle bottoms

Info

Publication number: WO2009118076A1
Application number: PCT/EP2009/000784
Authority: WO
Inventors: Claas Fritsche
Original assignee: Khs Ag
Priority date: 2008-03-28
Filing date: 2009-02-05
Publication date: 2009-10-01
Also published as: ATE541652T1; DE102008016322A1; EP2268425B1; US8500914B2; US20110005553A1; PL2268425T3; EP2268425A1

Abstract

With the device (1) according to the invention for blowing off impurities on bottle bottoms, in particular bottle inspection machines, a solution is to be created which makes it possible to achieve an optimum blow-off result at comparatively lower air volume flows. This is achieved according to the invention in that beneath the nozzle head (3) in the annular body (5) a channel (6) is provided, which is connected to a compressed air line (7), which in turn is linked to the compressed air feed line (9), wherein the channel (6) in the upper edge pointing to the nozzle head (3) forms an annular gap (14) - triggering the Venturi effect.

Description

Device for blowing off bottle bottoms

The invention is directed to a device for blowing off bottle bottoms, in particular for bottle inspection machines, with a mushroom-shaped nozzle head with directed against the bottom of a bottle located above the compressed air outlet channel and a distance to the nozzle head surrounding annular body.

When filling bottles so-called inspection machines are used in appropriate bottling plants, which serve to detect contamination on or in the bottles, it being known to illuminate the bottles from the bottom.

To ensure that in the presence of impurities these are inside the bottle, the outer surface of the bottles must be cleaned of impurities, such as adhering lubricants on the bottom of the bottle, which can adhere to the bottles by the plant itself and the like. More , Also, any existing foam must be removed from the cleaning systems.

In any case, it is known to blow off the bottle bottoms, as described for example in utility model DE 94 01 929 U. In the magazine "Brauindustrie" 8/98,

Sanitary measures are described on pages 484-486, including a bottle washer. Such a blower also shows the generic utility model DE 203 17 458 U. It has been found that in these blowers large amounts of air must be moved, i. they must be extracted with the impurities, with high volume flows require a relatively large effort, with the associated economic disadvantages.

This is where the invention whose task is to find in such devices a cost-effective solution with which it is possible to achieve an optimal blow-off result, at relatively lower Airflows.

This object is achieved according to the invention in that below the nozzle head in the annular body, a channel is provided which is acted upon by a pressure line, which in turn is connected to the compressed air supply lines, wherein the channel in the nozzle head facing the upper edge - a Venturi effect triggering - annular gap forms.

With this measure it is achieved that a kind Ventura effect is generated by the additional not directed to the bottom of the bottle ring flow, which is used directly for the extraction of the cleaning air flow.

With this measure, a number of advantages are associated. So only one Druckzuführleitung to the blower is necessary, which also provides via their "bypass line" by Venturi effect in Auslassringspalt at the same time for the necessary vacuum for suction. An additional suction line is no longer required.

Another advantage is that the construction is extremely simple, robust and cost-effective.

Further embodiments of the invention will become apparent from the dependent claims. In this case, it may be provided in particular that in the ring body a Ableithülse with an outer groove to form a channel, possibly axially displaceable, is provided. In this case, the Ableithülse may have at its upper end facing the nozzle head has a diameter which is slightly smaller than the diameter of the opposite Innwandkörpers.

This construction is extremely simple in terms of production, wherein the gas flow or the negative pressure which is produced by the axial adjustability of the outflow groove, which effects the venturi effect, can be precisely adjusted.

The invention also provides that both the Ableithülse, and the annular body are equipped with an opposite in use position groove to the flow channel for the Venturi effect triggering air flow optimize.

This optimization of the flow is also a further measure according to the invention, which consists in that the Abieithüise is rounded at its nozzle head facing the upper inner edge.

The invention also provides that the annular body has an inwardly facing shoulder, which is opposite in the upper peripheral edge of the Ableithülse to a gap formation.

Another simpler structural embodiment of the invention is that the nozzle head of a provided with suction openings in the edge gap support element, e.g. a baffle is held.

To solve the above formulated object, the invention also provides a method for blowing off the impurities in bottle bottoms, which is characterized in that the vacuum necessary for suction below the nozzle head by entering through an annular gap, a Venturi effect triggering diverted part the blow-off air is generated.

By this procedure, the advantages already given above are achieved, i. E. it only requires a single compressed air supply, wherein a portion of this blow-off air is then used in a bypass to generate a negative pressure below the nozzle head.

In an embodiment, it is provided that the negative pressure is regulated via the adjustment of the annular gap size.

Further features, details and advantages of the invention will become apparent from the following description and from the drawings. This shows in

1 is a sectional view through the air supply and nozzle area of a blower otherwise not shown approximately along line II in Fig. 1, Fig. 2 is a plan view gem. Line M-II in Fig. 1 and in

Fig. 3 is an enlarged detail of the nozzle area in section.

The generally designated 1 device for blowing off a bottle bottom 2a of an only hinted reproduced bottle 2 has an approximately mushroom-shaped nozzle head 3 with a centric

Compressed air outlet channel 4 which is directed against the bottom 2a of the bottle 2.

The mushroom-shaped nozzle head 3 is surrounded by an annular body 5, which has on its inner wall below the mushroom head 3 has a circumferential annular channel 6, which is acted upon by a bypass compressed air line 7, by the compressed air from a T-piece 8 from the compressed air supply line 9 is fed into the annular channel 6.

The fed into the annular channel 6 compressed air is blown through a gap 14 in the designated 15 interior of the annular body 5.

As can be seen from Fig. 1, the nozzle head is held by a provided with apertures 10 support plate 11, so that by the centric

Compressed air outlet channel 4 flowing air can flow through the designated annulus 12 between ring body 5 on the one hand and mushroom-shaped nozzle head 3 on the other hand down into the interior 15 of the annular body 5, which is indicated in Fig. 3 with a dashed arrow 16. This flow is enforced by the Venturi effect generated due to the nozzle gap 14. The corresponding flow arrows are designated 16a in FIG.

In Fig. 3 is also indicated that the annular body 5 may be formed in two parts with an upper on the support plate 11 and the nozzle head 3 bearing ring member on the one hand and a screwed therein via a thread 17 Ableithülse 5a, wherein on the thread 17th the width of the gap 14 is adjustable.

In the construction shown in Fig. 3, the annular body 5 has a shoulder 18 forming, inwardly facing collar, against which the rounded upper free edge 19 of the Ableithülse 5a can be moved to adjust this gap width.

Of course, the described Ausführungsbeispiei of the invention is still in many ways modify without departing from the spirit. Thus, the invention is not limited to the specific design or design of the annular channel 6 or the Ableithülse 5a in the annular body 5 and the like.

Claims

claims:

1. Device (1) for blowing on and blowing off of bottle bottoms, in particular for bottle inspection machines, with a nozzle head (3) against the bottom (2 a) located above a bottle (2) directed compressed air outlet channel (4) and on Distance between the nozzle head (3) surrounding annular body (5), characterized in that below the nozzle head (3) in the annular body (5) a channel (6) is provided which is acted upon by a compressed air line (7), in turn with the compressed air supply line (9) is connected, wherein the channel (6) in the direction of the nozzle head (3) facing upper edge - an - the venturi effect triggering - annular gap (14).

2. Apparatus according to claim 1, characterized in that the nozzle head (3) is mushroom-shaped.

3. Apparatus according to claim 1 or 2, characterized in that in the tubular body (5) a Ableithülse (5a) with an outer groove for forming the channel (6) is optionally provided axially displaceable.

4. Device according to one of claims 1 to 3, characterized in that the Ableithülse (5 a) and / or the annular body (5) are equipped with an opposite in the position of use groove.

5. Device according to one of the preceding claims, characterized in that the Ableithülse (5 a) at its the nozzle head (6) facing upper inner edge is rounded.

6. Device according to one of the preceding claims, characterized in that the annular body (5) has an inwardly facing shoulder (18) which faces in the upper peripheral edge of the Ableithülse (5a) to a gap formation.

7. Device according to one of the preceding claims, characterized in that the nozzle head (6) of one with suction

(10) support element provided in the annular gap (12), e.g. a baffle

(11) is held.

8. A method for blowing off contaminants in bottle bottoms within a bottle inspection machine, wherein the bottle bottoms is blown by means of compressed air and the air contaminated with the impurities is sucked off, characterized in that the vacuum necessary for the suction below the nozzle head by entering through an annular gap, a venturi effect triggering diverted part of the blow-off air is generated.

9. The method according to claim 8, characterized in that the negative pressure is regulated by the adjustment of the annular gap size.